In a table without a clustered index (a heap table), data pages are not linked together - so traversing pages requires a lookup into the Index Allocation Map.
A clustered table, however, has it's data pages linked in a doubly linked list - making sequential scans a bit faster. Of course, in exchange, you have the overhead of dealing with keeping the data pages in order on INSERT
, UPDATE
, and DELETE
. A heap table, however, requires a second write to the IAM.
If your query has a RANGE
operator (e.g.: SELECT * FROM TABLE WHERE Id BETWEEN 1 AND 100
), then a clustered table (being in a guaranteed order) would be more efficient - as it could use the index pages to find the relevant data page(s). A heap would have to scan all rows, since it cannot rely on ordering.
And, of course, a clustered index lets you do a CLUSTERED INDEX SEEK, which is pretty much optimal for performance...a heap with no indexes would always result in a table scan.
So:
For your example query where you select all rows, the only difference is the doubly linked list a clustered index maintains. This should make your clustered table just a tiny bit faster than a heap with a large number of rows.
For a query with a WHERE
clause that can be (at least partially) satisfied by the clustered index, you'll come out ahead because of the ordering - so you won't have to scan the entire table.
For a query that is not satisified by the clustered index, you're pretty much even...again, the only difference being that doubly linked list for sequential scanning. In either case, you're suboptimal.
For INSERT
, UPDATE
, and DELETE
a heap may or may not win. The heap doesn't have to maintain order, but does require a second write to the IAM. I think the relative performance difference would be negligible, but also pretty data dependent.
Microsoft has a whitepaper which compares a clustered index to an equivalent non-clustered index on a heap (not exactly the same as I discussed above, but close). Their conclusion is basically to put a clustered index on all tables. I'll do my best to summarize their results (again, note that they're really comparing a non-clustered index to a clustered index here - but I think it's relatively comparable):
INSERT
performance: clustered index wins by about 3% due to the second write needed for a heap.
UPDATE
performance: clustered index wins by about 8% due to the second lookup needed for a heap.
DELETE
performance: clustered index wins by about 18% due to the second lookup needed and the second delete needed from the IAM for a heap.
- single
SELECT
performance: clustered index wins by about 16% due to the second lookup needed for a heap.
- range
SELECT
performance: clustered index wins by about 29% due to the random ordering for a heap.
- concurrent
INSERT
: heap table wins by 30% under load due to page splits for the clustered index.
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